湍流库埃特-泰勒流中的标度和结构。

She Z S, Ren K, Lewis G S, Swinney H L

State Key Laboratory for Turbulence Research, Department of Mechanical and Engineering Science, Peking University, Beijing 100871, People's Republic of China.

Phys Rev E Stat Nonlin Soft Matter Phys. 2001 Jul;64(1 Pt 2):016308. doi: 10.1103/PhysRevE.64.016308. Epub 2001 Jun 18.

The scaling of velocity structure functions in Couette-Taylor flow [Lewis and Swinney, Phys. Rev. E 59, 5457 (1999)] is revisited to obtain more accurate values of the scaling exponents for the Reynolds number range investigated, 12,000 to 540,000 (Taylor Reynolds numbers, 34<R(lambda)<220). Systematic convergence of the statistics with increasing sample size is examined, and the uncertainty of the scaling exponents is assessed. At all Reynolds numbers the data support the hierarchical symmetry proposed by She and Leveque [Phys. Rev. Lett. 72, 336 (1994)]. The She-Leveque constant beta has a value of 0.83, indicating greater intermittency in Couette-Taylor turbulence than in free jets, where beta=0.87. The constant gamma, which is a measure of the degree of singularity of the most intermittent structure, decreases from 0.14 for R<10(5) to 0.10 for R>10(5); this transition corresponds to a visually observed break up of the Taylor vortex roll structure with increasing R.

重新审视了库埃特 - 泰勒流中速度结构函数的标度关系[刘易斯和斯温尼，《物理评论E》59，5457（1999）]，以获取在所研究的雷诺数范围12,000至540,000（泰勒雷诺数，34 < R(λ) < 220）内更精确的标度指数值。研究了统计量随样本量增加的系统收敛性，并评估了标度指数的不确定性。在所有雷诺数下，数据都支持由谢和勒维克提出的层级对称性[《物理评论快报》72，336（1994）]。谢 - 勒维克常数β的值为0.83，这表明库埃特 - 泰勒湍流中的间歇性比自由射流中的更大，自由射流中β = 0.87。常数γ衡量最间歇性结构的奇异程度，它从R < 10^5时的0.14减小到R > 10^5时的0.10；这种转变对应于随着R增大在视觉上观察到的泰勒涡卷结构的破裂。

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